Messaoud Babaghayou
APOLLO: A Proximity-Oriented, Low-Layer Orchestration Algorithm for Resources Optimization in Mist Computing
Babaghayou, Messaoud; Chaib, Noureddine; Maglaras, Leandros; Yigit, Yagmur; Amine Ferrag, Mohamed; Marsh, Carol; Moradpoor, Naghmeh
Authors
Noureddine Chaib
Prof Leandros Maglaras L.Maglaras@napier.ac.uk
Professor
Yagmur Yigit
Mohamed Amine Ferrag
Carol Marsh
Dr Naghmeh Moradpoor Sheykhkanloo N.Moradpoor@napier.ac.uk
Lecturer
Abstract
The fusion of satellite technologies with the Internet of Things (IoT) has propelled the evolution of mobile computing, ushering in novel communication paradigms and data management strategies. Within this landscape, the efficient management of computationally intensive tasks in satellite-enabled mist computing environments emerges as a critical challenge. These tasks, spanning from optimizing satellite communication to facilitating blockchain-based IoT processes, necessitate substantial computational resources and timely execution. To address this challenge, we introduce APOLLO, a novel low-layer orchestration algorithm explicitly tailored for satellite mist computing environments. APOLLO leverages proximity-driven decision-making and load balancing to optimize task deployment and performance. We assess APOLLO’s efficacy across various configurations of mist layer devices while employing a round-robin principle for equitable task distribution among the close low-layer satellites. Our findings underscore APOLLO’s promising outcomes in terms of reduced energy consumption, minimized end-to-end delay, and optimized network resource utilization, particularly in targeted scenarios. However, the evaluation also reveals avenues for refinement, notably in CPU utilization and slightly low tasks success rates. Our work contributes substantial insights into advancing task orchestration in satellite-enabled mist computing with more focus on energy and end-to-end sensitive applications, paving the way for more efficient, reliable, and sustainable satellite communication systems.
Journal Article Type | Article |
---|---|
Acceptance Date | May 30, 2024 |
Deposit Date | May 30, 2024 |
Print ISSN | 1022-0038 |
Electronic ISSN | 1572-8196 |
Publisher | Springer |
Peer Reviewed | Peer Reviewed |
Keywords | Satellite Edge Computing, Task Management, Task Orchestration, Low-Layer Satellites communication, Energy-efficient Offloading, End-to-End Delay Reduction |
Publisher URL | http://link.springer.com/journal/11276 |
This file is under embargo due to copyright reasons.
Contact repository@napier.ac.uk to request a copy for personal use.
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